A charge of` +2.0xx 10 ^-8 C` is placed on the positive place and a charge of -`1.0 xx 10 ^-8 C on the negative plate of a parallel- plate capacitor of capacitance ` 1.2 xx (10^-3) mu F. Calculate the potential difference developed between the plates.

Work done in placing a charge of 8 xx 10^(-18) C on a capacitor of capacitance 800 microfarad is

What is the area of the plates of a 2 F parallel plate capacitor given that the separation between the plates is 0.5 cm ?

Positive and negative charges of 1 muC each are placed at two points as shown in the figure. Find the potential difference between A and B

You are given a 2 mu F parallel plate capacitor. How would you establish an instantaneous displacement current of 1mA in the space between its plates ?

The charge 3.0 xx 10^(-5) C are placed on a metal sphere of radius 3.0 m, then the energy stored in it will be ........ .

A substance has a dielectric constant 2.0 and its dielectric strength is 20 xx 10^(6) V/m . It is taken as a dielectric material in a parallel plate capacitor. The minimum area of its each plate such that its capacitance becomes 8.85xx10^(-2) muF and it can withstand a potential difference of 2000 V is ......

Prove that the force acting on one plate due to the other in a parallel plate capacitor is F =(1)/(2) (CV^(2))/(d) .

In a neon discharge tube 2.9 xx 10^(18) Ne^(+) ions move to the right each second while 1.2 xx 10^(18) eletrons move to the left per second. Electron charge is 1.6 xx 10^(-19) C . The current in the discharge tube

Figure 8.6 shows a capacitor made of two circular plates each of radius 12 cm, and separated by 5.0 cm. The capacitor is being charged by an external source (not shown in the figure). The charging current is constant and equal to 0.15A. (a) Calculate the capacitance and the rate of change of potential difference between the plates. (b) Obtain the displacement current across the plates. (c) Is Kirchhoff’s first rule (junction rule) valid at each plate of the capacitor? Explain.